JPH054251A - Method and device fork pouring gas in hollow molded article - Google Patents

Method and device fork pouring gas in hollow molded article

Info

Publication number
JPH054251A
JPH054251A JP18312091A JP18312091A JPH054251A JP H054251 A JPH054251 A JP H054251A JP 18312091 A JP18312091 A JP 18312091A JP 18312091 A JP18312091 A JP 18312091A JP H054251 A JPH054251 A JP H054251A
Authority
JP
Japan
Prior art keywords
gas
resin
time
pressure
injecting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP18312091A
Other languages
Japanese (ja)
Other versions
JP2971198B2 (en
Inventor
Tsuneo Kurihara
恒夫 栗原
Katsushige Kusaka
勝茂 日下
Toshiyuki Azuma
敏行 東
Teruo Ichikawa
輝男 市川
Michiya Saitou
理也 斉藤
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Honda Motor Co Ltd
Original Assignee
Honda Motor Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Honda Motor Co Ltd filed Critical Honda Motor Co Ltd
Priority to JP18312091A priority Critical patent/JP2971198B2/en
Publication of JPH054251A publication Critical patent/JPH054251A/en
Application granted granted Critical
Publication of JP2971198B2 publication Critical patent/JP2971198B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C45/00Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
    • B29C45/17Component parts, details or accessories; Auxiliary operations
    • B29C45/1703Introducing an auxiliary fluid into the mould
    • B29C45/1704Introducing an auxiliary fluid into the mould the fluid being introduced into the interior of the injected material which is still in a molten state, e.g. for producing hollow articles
    • B29C45/1706Introducing an auxiliary fluid into the mould the fluid being introduced into the interior of the injected material which is still in a molten state, e.g. for producing hollow articles using particular fluids or fluid generating substances
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C45/00Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
    • B29C45/17Component parts, details or accessories; Auxiliary operations
    • B29C45/1703Introducing an auxiliary fluid into the mould
    • B29C45/1734Nozzles therefor

Landscapes

  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Engineering (AREA)
  • Blow-Moulding Or Thermoforming Of Plastics Or The Like (AREA)
  • Moulds For Moulding Plastics Or The Like (AREA)
  • Injection Moulding Of Plastics Or The Like (AREA)

Abstract

PURPOSE:To maintain favorable appearance of the product by bringing the intrusion of gas in unnecessary part to null and surely pouring the gas in necessary part by a method wherein low pressure gas is poured in resin at the early stage of the molten resin, the surface layer of which is semi-solidified, and held for the predetermined period of time and, after that, high pressure gas is poured in the resin so as to mold a hollow molded article. CONSTITUTION:When the solidification of the surface layer of resin 42 starts, gas is poured for the first time. A needle pin 16 in its intermediate position is once lowered so as to make a hole in the surface layer and them moved upwards in order to introduce low pressure gas waiting in a gas flow path 22 into the resin 42 for pouring gas for the first time. The needle pin 16 is lowered again just after the opening of the gas flow path 22 so as to shut off the gas flow path and hold that state for the predetermined period of time. When the pressure of gas in a high pressure gas tank 26 is gradually elevated and then the pouring of gas is carried out for the second time or the needle pin moves upwards so as to oven the gas flow path 22 in order to introduce high pressure gas in the resin 42 and hold that state for the predetermined period of time, resulting in developing no intrusion state of gas in unnecessary part and consequently forming hollow part having favorable shape.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、例えばプラスチックの
インジェクション成形において、成形品内部を中空にす
るためのガスの注入方法及びその装置の改良に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improved method and apparatus for injecting a gas to make the inside of a molded product hollow in injection molding of plastics, for example.

【0002】[0002]

【従来の技術】従来、プラスチックのような樹脂成形品
を射出成形で製作するにあたり、キャビティ内に充填し
た溶融樹脂が凝固するまでの間に樹脂内に高圧ガスを注
入し、樹脂内部に中空部を成形するような中空成形品の
成形法が知られている。すなわちキャビティ表面に接す
る溶融樹脂の表層が半凝固状態となった時に、何らかの
手段で表層の一部に穴を明け、その穴から内部の半凝固
の部分に向けて高圧ガスを注入すると、ガスは樹脂内部
の未凝固部分を周囲に押し拡げながら浸透し、次いでガ
ス圧を保ったまま凝固させれば、ガス占有空間が中空部
として形成されるというものである。2. Description of the Related Art Conventionally, when a resin molded product such as plastic is manufactured by injection molding, high-pressure gas is injected into the resin until the molten resin filled in the cavity is solidified, and a hollow portion is formed inside the resin. There is known a method for molding a hollow molded article, such as molding. That is, when the surface layer of the molten resin in contact with the cavity surface becomes semi-solidified, a hole is made in a part of the surface layer by some means, and high-pressure gas is injected from the hole toward the semi-solidified part inside, the gas is The unoccupied portion inside the resin is permeated while being spread to the surroundings, and is then solidified while maintaining the gas pressure, whereby the gas occupied space is formed as a hollow portion.

【0003】[0003]

【発明が解決しようとする課題】しかし従来の場合、樹
脂内部にガスを注入する際に内部の不必要な場所にまで
ガスが浸透して製品の外観形状を損なうという問題があ
った。つまり図6に示すように金型(51)(52)間
のキャビティ(53)に充填される溶融樹脂(54)内
にガス供給路(55)から注入された高圧ガスは、本来
望ましい占有空間(破線位置)を越えて更に奥に食い込
み、このため成形品の外観不良或いは製品の過度の薄肉
化といった不具合を招いていた。又、従来の場合、ガス
供給路(55)から送られる高圧ガスを制御する手段を
有していなかったため、所定のガス圧を保持して凝固を
待つ間に逐次ガス圧が高くなるという問題もあり、圧力
の高まったガスの作用で上記の食い込みの現象が更に助
長される傾向にあった。However, in the conventional case, when the gas was injected into the resin, there was a problem that the gas permeated to unnecessary places inside the resin to impair the external shape of the product. That is, as shown in FIG. 6, the high pressure gas injected from the gas supply path (55) into the molten resin (54) filled in the cavity (53) between the molds (51) and (52) is an originally occupied space. It goes beyond the (broken line position) and penetrates further into the interior, resulting in defects such as poor appearance of the molded product or excessive thinning of the product. Further, in the conventional case, since there is no means for controlling the high pressure gas sent from the gas supply path (55), there is a problem that the gas pressure increases successively while holding a predetermined gas pressure and waiting for solidification. However, there is a tendency that the above-mentioned phenomenon of biting is further promoted by the action of the gas whose pressure is increased.

【0004】[0004]

【課題を解決するための手段】かかる課題を解決するた
め、本発明は溶融樹脂の表層が半凝固となった初期の段
階で樹脂内に低圧のガスを注入して所定時間保持し、次
いで同樹脂内に高圧のガスを注入するようにした。又、
ガス圧可変機構とガス注入機構を設け、ガス注入機構に
は、ガス通路の設けられたガス注入ノズルと、このガス
注入ノズル内に設けられ且つ進退動することで前記ガス
通路を開閉する開閉部材と、この開閉部材の進退を駆動
する駆動部材を設けた。In order to solve the above problems, the present invention injects a low pressure gas into the resin at an early stage when the surface layer of the molten resin is semi-solidified, and holds it for a predetermined time, and then the same. High-pressure gas was injected into the resin. or,
A gas pressure varying mechanism and a gas injecting mechanism are provided. The gas injecting mechanism is provided with a gas injecting nozzle, and an opening / closing member that is provided in the gas injecting nozzle and opens and closes the gas passage by moving back and forth. And a drive member for driving the opening / closing member forward and backward.

【0005】[0005]

【作用】初期の段階で低圧のガスを注入し、一定時間経
過して安定した頃、次に高圧ガスを注入すれば不要部へ
のガスの食い込みがなくなり、必要部へのみ確実に注入
することができる。このため外観品質を良好に維持でき
る。又、ガス通路を開閉することのできる開閉部材を設
けることで、注入したガス圧を所定の値に正確に保持し
ておくことが可能となる。[Function] Injecting low-pressure gas in the initial stage, when it stabilizes after a certain period of time, and then injecting high-pressure gas, the gas will not bite into unnecessary parts, and only the necessary parts will be reliably injected. You can Therefore, the appearance quality can be maintained excellent. Further, by providing the opening / closing member capable of opening / closing the gas passage, it becomes possible to accurately hold the injected gas pressure at a predetermined value.

【0006】[0006]

【実施例】本発明のガス注入方法及び装置の実施例につ
いて添付した図面に基づき説明する。図1は射出成形装
置の全体図、図2はガス注入装置の要部拡大図、図3は
ガス圧可変機構のうちブースタの内部構造の説明図であ
る。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the gas injection method and apparatus of the present invention will be described with reference to the accompanying drawings. 1 is an overall view of an injection molding apparatus, FIG. 2 is an enlarged view of a main part of a gas injection apparatus, and FIG. 3 is an explanatory view of an internal structure of a booster in a gas pressure variable mechanism.

【0007】図1に示すように中空樹脂成形用の射出成
形装置(1)は、固定型取付板(2)に取り付けられる
固定型本体(3)と、可動型取付板(4)に取り付けら
れる可動型本体(5)が型開き、型閉め可能となり、型
閉め状態の両型本体(3)(5)間にはキャビティ
(6)が形成される。そして固定型本体(3)には、キ
ャビティ(6)内に溶融樹脂を充填するためのスプルー
(7)が設けられ、一方、可動型本体(5)には、キャ
ビティ(6)に先端を臨ませた押出ピン(8)が上下に
摺動自在に設けられている。そしてこの押出ピン(8)
の上端は、可動型取付板(4)に支持される押出板
(9)に取り付けられている。又、可動型本体(5)に
はガス注入機構(11)が設けられ、このガス注入機構
(11)には図2に示すようなガス圧可変機構(12)
が接続されている。As shown in FIG. 1, an injection molding device (1) for hollow resin molding is mounted on a fixed mold body (3) mounted on a fixed mold mounting plate (2) and a movable mold mounting plate (4). The movable mold body (5) can be opened and closed, and a cavity (6) is formed between the mold bodies (3) and (5) in the mold closed state. The fixed mold body (3) is provided with a sprue (7) for filling the molten resin into the cavity (6), while the movable mold body (5) has a tip facing the cavity (6). A push pin (8) is provided so that it can slide up and down. And this extrusion pin (8)
The upper end of is attached to the push plate (9) supported by the movable mounting plate (4). Further, the movable mold body (5) is provided with a gas injection mechanism (11), and the gas injection mechanism (11) has a variable gas pressure mechanism (12) as shown in FIG.
Are connected.

【0008】ガス注入機構(11)は、可動型本体
(5)に装着され且つ先端側がガス注入ノズルとしての
ノズル部(17)となったシリンダ本体(13)と、こ
のシリンダ本体(13)内で摺動自在なピストン(1
4)を備え、このピストン(14)のロッド部(15)
先端に取り付けられた開閉部材としてのニードルピン
(16)が、前記ノズル部(17)中央の貫通孔(1
8)内を摺動自在とされている。又、前述のピストン
(14)を往復作動させるための流体導入ポート(1
9)(20)が設けられ、例えば油圧によって駆動す
る。The gas injection mechanism (11) is attached to the movable mold body (5) and has a nozzle body (17) on the tip side as a gas injection nozzle, and a cylinder body (13) inside the cylinder body (13). Slidable with a piston (1
4), and the rod part (15) of this piston (14)
A needle pin (16) as an opening / closing member attached to the tip is provided with a through hole (1) at the center of the nozzle portion (17).
8) It is slidable inside. Also, the fluid introduction port (1) for reciprocating the above-mentioned piston (14).
9) (20) is provided and driven by, for example, hydraulic pressure.

【0009】又、ノズル部(17)の内部には、ガス通
路(22)が設けられ、このガス通路(22)の上流側
は後述する高圧ガスタンク(26)に接続されるととも
に、下流側は前記貫通孔(18)に連通している。又こ
のガス通路(22)と貫通孔(18)の連通部は、ニー
ドルピン(16)によって連通、遮断自在とされてい
る。つまり図2に示すようにピストン(14)が下動し
た状態でニードルピン(16)は該連通部の連通を遮断
するとともに、先端がキャビティ(6)内に突出し、逆
に上動するとニードルピン(16)は連通部を開放して
ガス通路(22)と貫通孔(18)を連通せしめるよう
にしている。A gas passage (22) is provided inside the nozzle portion (17), the upstream side of this gas passage (22) is connected to a high pressure gas tank (26) described later, and the downstream side is It communicates with the through hole (18). Further, the communication portion between the gas passage (22) and the through hole (18) can be communicated and blocked by the needle pin (16). That is, as shown in FIG. 2, while the piston (14) is moving downward, the needle pin (16) blocks the communication of the communicating portion, and the tip projects into the cavity (6), and conversely when moving upward, the needle pin (16) moves. (16) opens the communication part so that the gas passage (22) and the through hole (18) can communicate with each other.

【0010】次にガス圧可変機構(12)の構成に付い
て説明する。ガス圧可変機構(12)は、図2に示すよ
うにガスボンベ(24)に接続するブースター(25)
と、このブースター(25)に接続する高圧ガスタンク
(26)を備え、ガスボンベ(24)から送られるガス
をブースター(25)で加圧してガス圧を高めながら逐
次高圧ガスタンク(26)に蓄積してゆくようにしてい
る。Next, the structure of the gas pressure varying mechanism (12) will be described. The gas pressure variable mechanism (12) is a booster (25) connected to a gas cylinder (24) as shown in FIG.
And a high-pressure gas tank (26) connected to this booster (25), and the gas sent from the gas cylinder (24) is pressurized by the booster (25) to increase the gas pressure and successively accumulate in the high-pressure gas tank (26). I am trying to go.

【0011】このため、例えばブースター(25)の構
成は図3に示すようにピストン往復型加圧器として構成
され、ガスボンベ側から導入管(27)を通して送られ
る例えば窒素ガスのようなガスをバルブ(31)、連通
管(28)を介して小室(29)に導き、導入ガス圧で
右方に移動するピストン(30)の力で小室(29)の
ガスを加圧した後、バルブ(32)を開いて高圧ガスタ
ンク(26)に押し込み、これを繰り返して高圧ガスタ
ンク(26)内のガス圧を高めるようにしている。Therefore, for example, the booster (25) is constructed as a piston reciprocating pressurizer as shown in FIG. 3, and a gas such as nitrogen gas sent from the gas cylinder side through the introducing pipe (27) is valved ( 31), the gas in the small chamber (29) is pressurized by the force of the piston (30) that is guided to the small chamber (29) through the communication pipe (28) and moves to the right by the introduced gas pressure, and then the valve (32). Is opened and pushed into the high pressure gas tank (26), and this is repeated to increase the gas pressure in the high pressure gas tank (26).

【0012】又、このためピストン(30)の前後には
ガスの上流側の室(37)内に臨むピストンロッド(3
3)と、下流側の小室(29)内に臨むピストンロッド
(34)を設けて両者の径を異ならせ、効果的に加圧し
得るようにしている。又ピストン(30)の右方への移
動を補助するための補助エアポート(35)が設けられ
るとともに、ピストン(30)を復動させるためのエア
ポート(36)を設けている。Therefore, before and after the piston (30), the piston rod (3) which faces the gas upstream chamber (37).
3) and a piston rod (34) facing the small chamber (29) on the downstream side are provided so that the diameters of the two are different and effective pressurization is possible. Further, an auxiliary air port (35) for assisting the rightward movement of the piston (30) is provided, and an air port (36) for returning the piston (30) is provided.

【0013】このようなブースター(25)は各バルブ
(31)(32)の開閉操作とピストン(30)の往復
動によって高圧ガスタンク(25)内のガス圧を時間と
共に逐次高めてゆき、本実施例の場合、低圧ガスと高圧
ガスの2段階に分けて繰り返して蓄積していくようにし
ている。つまり、低圧時には50〜300kg/c
2、高圧時には100〜600kg/cm2の各範囲で
両者を組合せ、交互に蓄積圧を変化させていく。Such a booster (25) sequentially increases the gas pressure in the high pressure gas tank (25) with time by opening and closing the valves (31) and (32) and reciprocating the piston (30). In the case of the example, the low pressure gas and the high pressure gas are divided into two stages and repeatedly accumulated. That is, at low pressure, 50 to 300 kg / c
At m 2 and high pressure, both are combined in each range of 100 to 600 kg / cm 2 , and the accumulated pressure is alternately changed.

【0014】尚、この高圧ガスタンク(26)は、図2
に示す接続管(39)によって前述のノズル部(17)
のガス通路(22)に接続されており、この接続管(3
9)の途中に設けられている点検整備用のバルブ(4
0)は通常時は開放している。つまり高圧ガスタンク
(26)内のガスは直接ガス通路(22)に連通してお
り、キャビティ(6)内との連通はニードルピン(1
6)によって制御される。The high pressure gas tank (26) is shown in FIG.
The connecting pipe (39) shown in FIG.
Connected to the gas passage (22) of the
Valve for inspection and maintenance (4) provided in the middle of 9)
0) is normally open. That is, the gas in the high-pressure gas tank (26) is in direct communication with the gas passage (22), and the communication with the cavity (6) is in the needle pin (1).
6) controlled by.

【0015】次に以上のように構成したガス注入装置の
ガス注入方法について説明する。ガス注入機構(11)
のニードルピン(16)を下動させ、側面部でガス通路
(22)を遮断した状態で溶融樹脂(42)をキャビテ
ィ(6)内に充填する。この際ニードルピン(16)の
先端をキャビティ(6)内に臨ませておくか或いは中間
位置で待機させておく。Next, a gas injection method of the gas injection device configured as described above will be described. Gas injection mechanism (11)
The needle pin (16) is moved downward to fill the cavity (6) with the molten resin (42) while the gas passage (22) is blocked at the side surface. At this time, the tip of the needle pin (16) is exposed in the cavity (6) or is made to stand by at an intermediate position.

【0016】樹脂(42)の表層が凝固を始めるとまず
1回目のガスを注入する。つまりニードルピン(16)
が中間位置にある時は、一旦降下させて表層に孔を明け
た後上動させ、ガス通路(22)で待機していた低圧の
ガスを樹脂(42)内に導き1回目のガス注入を行う。
この際の高圧ガスタンク(26)に蓄積されているガス
の圧力は図4に示す低圧(P1)であり、前述のように
例えば50〜300kg/cm2の範囲内として、一般
的に食い込み状態の不良の発生し易いとされている圧
力、すなわち150〜350kg/cm2より低い値と
している。そしてニードルピン(16)はガス通路(2
2)を開放した直後再び降下してガス通路を遮断し、こ
の状態で所定時間保持する。又、この間に高圧ガスタン
ク(26)内のガス圧は逐次高められ、低圧(P1)よ
り高い高圧(P2)に加圧されている。When the surface layer of the resin (42) begins to solidify, the first gas is injected. Ie needle pin (16)
Is in the middle position, it is once lowered to open a hole in the surface layer and then moved upward, and the low pressure gas waiting in the gas passage (22) is introduced into the resin (42) for the first gas injection. To do.
At this time, the pressure of the gas accumulated in the high-pressure gas tank (26) is the low pressure (P1) shown in FIG. 4, and as described above, for example, in the range of 50 to 300 kg / cm 2 , it is generally in a bite state. It is set to a value lower than the pressure at which defects are likely to occur, that is, 150 to 350 kg / cm 2 . The needle pin (16) is connected to the gas passage (2
Immediately after opening 2), it descends again to block the gas passage, and this state is maintained for a predetermined time. Further, during this period, the gas pressure in the high pressure gas tank (26) is successively increased and is pressurized to a high pressure (P2) higher than the low pressure (P1).

【0017】次に2回目のガス注入を行う。つまりニー
ドルピン(16)が上動しガス通路(2)を開放して高
圧ガス(P2)を樹脂(42)内に導く。このガス(P
2)の圧力も既述のように100〜600kg/cm2
の範囲内で、しかも低圧のガス(P1)より高い値を選
択しているが、例えば750kg/cm2を越えるよう
な値では食い込みの不良が発生し易くなる。そして所定
時間保持する。Next, the second gas injection is performed. That is, the needle pin (16) moves upward to open the gas passage (2) and guide the high pressure gas (P2) into the resin (42). This gas (P
The pressure of 2) is 100 to 600 kg / cm 2 as described above.
In this range, a value higher than that of the low-pressure gas (P1) is selected, but if it exceeds 750 kg / cm 2 , defective biting is likely to occur. And hold for a predetermined time.

【0018】この時の樹脂(42)内部の中空部は、例
えば図5に示す通りであり、1回目のガスの注入で破線
位置まで中空部が形成され、2回目の注入によって実線
の位置まで形成される。つまり食い込みの状態が生起せ
ず良好な形状の中空部を作ることが出来る。そして全体
が凝固したらガスを開放して離型する。The hollow portion inside the resin (42) at this time is, for example, as shown in FIG. 5, and the hollow portion is formed up to the broken line position by the first gas injection, and the solid line position is reached by the second injection. It is formed. That is, a hollow portion having a good shape can be formed without causing a biting state. When the whole is solidified, the gas is released and the mold is released.

【0019】[0019]

【発明の効果】以上のように本発明の中空成形品のガス
注入方法及び装置は、樹脂製品の厚肉部を中空にする場
合に、ガスの食い込みのような不必要な場所へのガスの
充填がなくなり、外観不良等の不具合を無くすことが出
来る。又、ニードルピンのような開閉部材でガス通路の
遮断、開放を自在としたため、凝固間に樹脂内で保持す
べきガス圧を一定に保つことが出来、中空部の形状を一
層正確に成形することが出来る。INDUSTRIAL APPLICABILITY As described above, the method and apparatus for injecting gas into a hollow molded article of the present invention, when making the thick portion of the resin product hollow, allow the gas to enter an unnecessary place such as the bite of gas. Filling is eliminated, and defects such as poor appearance can be eliminated. Also, since the gas passage can be blocked and opened freely by an opening / closing member such as a needle pin, the gas pressure to be held in the resin during solidification can be kept constant, and the shape of the hollow part can be formed more accurately. You can

【図面の簡単な説明】[Brief description of drawings]

【図1】射出成形装置の全体図FIG. 1 Overall view of injection molding machine

【図2】ガス注入装置の要部拡大図FIG. 2 is an enlarged view of a main part of the gas injection device.

【図3】ガス圧可変機構の構成図品であるブースターの
内部構成図FIG. 3 is an internal block diagram of a booster which is a block diagram of a gas pressure variable mechanism.

【図4】本発明のガス注入法を説明するための説明図FIG. 4 is an explanatory diagram for explaining the gas injection method of the present invention.

【図5】ガス注入状態を説明する説明図FIG. 5 is an explanatory diagram illustrating a gas injection state.

【図6】従来例のガス注入状態を示す説明図FIG. 6 is an explanatory view showing a gas injection state of a conventional example.

【符号の説明】[Explanation of symbols]

1 射出成形装置 6 キャビティ 11 ガス注入機構 12 ガス圧可変機構 16 ニードルピン 17 ノズル部 22 ガス通路 42 溶融樹脂 1 injection molding equipment 6 cavities 11 Gas injection mechanism 12 Gas pressure variable mechanism 16 needle pin 17 Nozzle part 22 gas passage 42 Molten resin

フロントページの続き (72)発明者 市川 輝男 埼玉県狭山市新狭山1丁目10番地1 ホン ダエンジニアリング株式会社内 (72)発明者 斉藤 理也 埼玉県狭山市新狭山1丁目10番地1 ホン ダエンジニアリング株式会社内Continued front page    (72) Inventor Teruo Ichikawa             1-10, Shin-Sayama, Sayama City, Saitama Prefecture             Within Da Engineering Co., Ltd. (72) Inventor Riya Saito             1-10, Shin-Sayama, Sayama City, Saitama Prefecture             Within Da Engineering Co., Ltd.

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 金型キャビティに充填した溶融樹脂内に
ガスを注入するガス注入方法において、この方法は、溶
融樹脂の表層が半凝固となった初期の段階で樹脂内に低
圧のガスを注入して所定時間保持し、次いで同樹脂内に
高圧のガスを注入して中空成形品を成形することを特徴
をする中空成形品のガス注入方法。1. A gas injection method for injecting gas into a molten resin filled in a mold cavity, which comprises injecting a low-pressure gas into the resin at an early stage when the surface layer of the molten resin is semi-solidified. And holding for a predetermined time, and then injecting a high-pressure gas into the resin to form a hollow molded article, which is a method for injecting a hollow molded article. 【請求項2】 中空成形品を成形するためのガス注入装
置において、このガス注入装置は、ガス圧可変機構とガ
ス注入機構を備え、このガス注入機構は、ガス通路の設
けられたガス注入ノズルと、このガス注入ノズル内に設
けられ且つ進退動することで前記ガス通路を開閉する開
閉部材と、この開閉部材の進退駆動を行わしめる駆動部
材を備えたことを特徴とする中空成形品のガス注入装
置。2. A gas injecting apparatus for forming a hollow molded article, the gas injecting apparatus including a gas pressure varying mechanism and a gas injecting mechanism, the gas injecting mechanism having a gas passage. A gas for a hollow molded article, comprising: an opening / closing member that is provided in the gas injection nozzle and opens and closes to open and close the gas passage; and a drive member that drives the opening and closing member to move forward and backward. Injection device.
JP18312091A 1991-06-27 1991-06-27 Gas injection method and apparatus for hollow molded articles Expired - Fee Related JP2971198B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP18312091A JP2971198B2 (en) 1991-06-27 1991-06-27 Gas injection method and apparatus for hollow molded articles

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP18312091A JP2971198B2 (en) 1991-06-27 1991-06-27 Gas injection method and apparatus for hollow molded articles

Publications (2)

Publication Number Publication Date
JPH054251A true JPH054251A (en) 1993-01-14
JP2971198B2 JP2971198B2 (en) 1999-11-02

Family

ID=16130142

Family Applications (1)

Application Number Title Priority Date Filing Date
JP18312091A Expired - Fee Related JP2971198B2 (en) 1991-06-27 1991-06-27 Gas injection method and apparatus for hollow molded articles

Country Status (1)

Country Link
JP (1) JP2971198B2 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001232656A (en) * 2000-02-22 2001-08-28 Battenfeld Gmbh Method and apparatus for injection-molding molded object having at least one gap
CN108081539A (en) * 2016-11-21 2018-05-29 柳道万和(苏州)热流道***有限公司 For the gas-assisted molding device of mold

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001232656A (en) * 2000-02-22 2001-08-28 Battenfeld Gmbh Method and apparatus for injection-molding molded object having at least one gap
CN108081539A (en) * 2016-11-21 2018-05-29 柳道万和(苏州)热流道***有限公司 For the gas-assisted molding device of mold

Also Published As

Publication number Publication date
JP2971198B2 (en) 1999-11-02

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